The equilibrium of an endothermic reaction which proceeds with an increase in volume can be shifted in the reverse direction by
increasing the temperature and decreasing the pressure
increasing the pressure and increasing the temperature
decreasing the temperature and increasing the pressure
decreasing the pressure and decreasing the temperature
Explanation
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Discussions (7)
it does...in an endothermic reaction an increase in temp. Favours the forward reaction whereas decrease in temp favours the back.....an increase in pressure favours the forward whereas decrease in pressure favours the backward
pressure favours the reacting side while temperature favours the product side so therefore the decrease in pressure and increase in temperature shifts the equilibrrium to the right d ans is correct
you can make out this equation from thr question
A + B 3C =+ve
1.)increase in temperature favours forward reaction/product formation for endothermic reaction so for the reaction to move to the left(reactants formation), you need to reduce the temperature (DECREASE IN TEMPERATURE 
)
2.)since the pressure of the reactant is less than the product, increase in pressure of the product will cause equilibrium position to shift to the left/reactant side (INCREASE IN PRESSURE )
3.) furthermore, if any if the reactants is removed continually, equilibrium position will move to the left and favor reactant formation (REMOVAL OF REACTANTS ) .....but jamb didn't add it so
decrease in temperature 
increase in pressure
